CN109506698A - A kind of hydrological environment monitor control system - Google Patents

Abstract

The invention discloses a kind of hydrological environment monitor control systems, including monitoring vessel main body, the bottom of monitoring vessel main body is connected with hydrologic monitoring device by bindiny mechanism, the top for monitoring vessel main body is equipped with solar energy photovoltaic panel, the center position of solar energy photovoltaic panel lower surface is hinged with support rod, the other end of support rod is fixedly connected on the upper surface of monitoring vessel main body, solar energy photovoltaic panel is hinged with screw rod far from the lower surface of post position, the upper surface of monitoring vessel main body, which corresponds to, is rotatably connected to the screw shell to match with screw rod by first bearing at the position of screw rod, screw rod is plugged in screw shell far from one end of solar energy photovoltaic panel, and screw rod is threadedly coupled with screw shell, screw shell fixing sleeve on the lateral wall of bottom is equipped with driven gear.The invention enables the specific situations that staff can grasp hydrological environment in real time, convenient timely to be coped with to the environmental problem of generation.

Description

A kind of hydrological environment monitor control system

Technical field

The present invention relates to hydrologic monitoring technical field more particularly to a kind of hydrological environment monitor control systems.

Background technique

In order to predict water quality comparison, water quality is adjusted in time, hydrlolgic work personnel want multiple measuring temperature, PH daily Value, the water quality indicators such as dissolved oxygen and ammonia nitrogen.Hydrological environment detection has more monitoring point quantity, monitoring time length, monitoring situation The features such as complicated.The country is used for the laboratory testing mode that hydrological environment monitoring is typically all off-line type, needs to sample, detection knot Fruit feedback cycle is long, can not carry out automatically water quality adjustment according to result, it is difficult to guarantee the safety of hydrological environment.In addition, for Hydrology surrounding enviroment are also required to carry out environment sensing and monitoring, so as to prevent because of air pollution, noise pollution and the temperature difference It significantlys change and bring environmental problem.But, Bu Nengshi incomplete for hydrological environment monitor control system domestic at present When the reply of first time is carried out to the environmental problem of generation.

Summary of the invention

It, cannot be real-time the purpose of the present invention is to solve hydrological environment monitor control system in the prior art is incomplete The problem of environmental problem of generation is coped in time, and a kind of hydrological environment monitor control system proposed.

To achieve the goals above, present invention employs following technical solutions:

The bottom of a kind of hydrological environment monitor control system, including monitoring vessel main body, the monitoring vessel main body passes through bindiny mechanism It is connected with hydrologic monitoring device, the top of the monitoring vessel main body is equipped with solar energy photovoltaic panel, the solar energy photovoltaic panel lower surface Center position be hinged with support rod, the other end of the support rod is fixedly connected on the upper surface of monitoring vessel main body, described Solar energy photovoltaic panel is hinged with screw rod far from the lower surface of post position, and the upper surface of the monitoring vessel main body corresponds to screw rod The screw shell to match with screw rod is rotatably connected to by first bearing at position, the screw rod is far from solar energy photovoltaic panel One end is plugged in screw shell, and screw rod is threadedly coupled with screw shell, and the screw shell is on the lateral wall of bottom Fixing sleeve is equipped with driven gear, and the upper surface of the monitoring vessel main body is fixedly connected with servo drive motor, the servo-drive The output end of motor is connected with the driving gear being meshed with driven gear, the upper surface of the monitoring vessel main body by shaft coupling It is fixedly connected with control cabinet and support column, photovoltaic DC-to-AC converter and battery are installed in the control cabinet, the support column is separate One end of monitoring vessel main body is fixedly connected with illumination camera shooting integrated machine.

Preferably, the bindiny mechanism includes fixed block, and the fixed block is fixedly connected on the bottom of monitoring vessel main body, institute It states fixed block and offers mounting groove far from the side of monitoring vessel main body, be inserted in the mounting groove and the matched connection of mounting groove Column, the one end of the connecting column far from mounting groove slot bottom are fixedly connected with hydrologic monitoring device, the two sides opposite side of the mounting groove Sliding groove is symmetrically offered on wall, the lateral wall of the connecting column corresponds to and offers card slot at the position of sliding groove, the card slot Slot bottom be fixedly connected with spring, the other end of the spring is fixedly connected with the fixture block with pocket matches, and fixture block and card slot Be slidably connected, the fixture block far from spring one end pass through card slot notch and extend in corresponding sliding groove, and fixture block with Sliding groove is slidably connected, slidably connected in the sliding groove with the matched pushing block of sliding groove, the pushing block far from fixture block one Side is rotatably connected to threaded rod, and the other end of the threaded rod runs through the slot bottom of sliding groove and extends to its outside, and threaded rod It is threadedly coupled with the slot bottom of sliding groove.

Preferably, it is opened up on the inner wall of the screw shell there are two symmetrical first sliding groove, the screw rod is separate too One end of positive energy photovoltaic panel is fixedly connected with convex block, and the lateral wall of the convex block is arranged with second bearing, and convex block and the second axis Hold rotation connection, be fixedly connected on the lateral wall of the second bearing there are two with matched first sliding block of first sliding groove, and the One sliding block is slidably connected with corresponding first sliding groove.

Preferably, the servo drive motor is externally provided with shield.

Preferably, it is symmetrically opened up on the inner wall of the sliding groove there are two second sliding slot, it is solid on the lateral wall of the pushing block There are two fixed connections and matched second sliding block of second sliding slot, and the second sliding block is slidably connected with corresponding second sliding slot.

Preferably, the threaded rod is fixedly connected with handle far from one end of pushing block.

Preferably, data collection module, data feedback module, control module and wireless transmission are installed in the control cabinet Module, the data collection module connect hydrologic monitoring device, illumination camera shooting integrated machine and data feedback module by conducting wire respectively, The data feedback module passes through conducting wire respectively and connects servo drive motor by conducting wire link control module, the control module And wireless transport module, the wireless transport module have personal terminal, the hydrologic monitoring device, illumination by wireless network connection Camera shooting integrated machine, data collection module, data feedback module, control module and wireless transport module pass through battery and are supplied Electricity.

Compared with prior art, the present invention provides a kind of hydrological environment monitor control system, have it is following the utility model has the advantages that

1, hydrological environment monitor control system, by the way that support rod, solar energy photovoltaic panel, screw rod, screw shell, driven tooth is arranged Wheel, servo drive motor and driving gear, solar energy photovoltaic panel receive sunlight, convert the solar into electricity by photovoltaic DC-to-AC converter It can be stored in battery, the servo drive motor that starting is connected with driving gear rotates clockwise, so that and solar energy photovoltaic panel Hinged screw rod rises, and the screw shell rotation for being connected with driven gear is driven, to change and the hinged solar energy of support rod The tilt angle of photovoltaic panel changes current direction, and servo drive motor rotates counterclockwise, screw rod decline, so that solar energy The angle of photovoltaic panel can be adjusted according to lighting angle, guarantee that solar energy photovoltaic panel receives solar irradiation to the greatest extent.

2, the hydrological environment monitor control system, by setting monitoring vessel main body, hydrologic monitoring device, fixed block, connecting column, Sliding groove, card slot, spring, fixture block, pushing block and threaded rod rotate threaded rod, make the pushing block of threaded rod rotation connection towards sliding The notch direction of slot is slided, and the fixture block of spring is press-connected, and slides fixture block towards the slot bottom direction of card slot, when fixture block and cunning When dynamic slot is detached from, the connecting column for being connected with hydrologic monitoring device can be disassembled out of fixed block mounting groove, it is convenient to water Literary monitor is safeguarded, the fixture block for being connected with spring is pressed, and the connecting column for being connected with hydrologic monitoring device is plugged in fixed block Mounting groove in, by spring by fixture block spring into corresponding sliding groove complete be clamped, hydrologic monitoring device can be rapidly completed Installation, so that the dismounting of hydrologic monitoring device is more convenient, it is convenient that hydrologic monitoring device is safeguarded.

3, the hydrological environment monitor control system passes through setting hydrologic monitoring device, illumination camera shooting integrated machine, servo-drive electricity Machine, data collection module, data feedback module, control module, wireless transport module and personal terminal, hydrologic monitoring device detect Real time data and illumination camera shooting integrated machine acquisition image data by data collection module carry out centralized collection, then The data of collection are passed into control module by data feedback module, after control module is focused on the data of feedback Wireless transport module is passed to, personal terminal is finally passed to by wireless network by wireless transport module, so that staff The specific situation of hydrological environment can be grasped in real time, convenient timely to be coped with to the environmental problem of generation, control module control Servo drive motor processed receives sunlight to the greatest extent, improves luminous energy to automatically adjust solar energy photovoltaic panel to proper angle Utilization rate.

Part is not directed in the device to be the same as those in the prior art or can be realized by using the prior art, the invention enables Staff can grasp the specific situation of hydrological environment in real time, convenient timely to be coped with to the environmental problem of generation.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of hydrological environment monitor control system proposed by the present invention；

Fig. 2 is the enlarged drawing of part A in Fig. 1；

Fig. 3 is the enlarged drawing of part B in Fig. 1；

Fig. 4 is a kind of working principle diagram of hydrological environment monitor control system proposed by the present invention.

In figure: 1 monitoring vessel main body, 2 hydrologic monitoring devices, 3 solar energy photovoltaic panels, 4 support rods, 5 screw rods, 6 screw shells, 7 Driven gear, 8 servo drive motors, 9 driving gears, 10 control cabinets, 11 support columns, 12 illumination camera shooting integrated machines, 13 fixed blocks, 14 connecting columns, 15 sliding grooves, 16 card slots, 17 springs, 18 fixture blocks, 19 pushing blocks, 20 threaded rods, 21 first sliding grooves, 22 convex blocks, 23 One sliding block, 24 second sliding slots, 25 second sliding blocks, 26 handles, 27 data collection modules, 28 data feedback modules, 29 control modules, 30 wireless transport modules, 31 personal terminal.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.

In the description of the present invention, it is to be understood that, term " on ", "lower", "front", "rear", "left", "right", "top", The orientation or positional relationship of the instructions such as "bottom", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, merely to just In description the present invention and simplify description, rather than the device or element of indication or suggestion meaning must have a particular orientation, with Specific orientation construction and operation, therefore be not considered as limiting the invention.

Referring to Fig.1-4, a kind of hydrological environment monitor control system, including monitoring vessel main body 1, monitor the bottom of vessel main body 1 It is connected with hydrologic monitoring device 2 by bindiny mechanism, the top of monitoring vessel main body 1 is equipped with solar energy photovoltaic panel 3, solar energy photovoltaic panel The center position of 3 lower surfaces is hinged with support rod 4, and the other end of support rod 4 is fixedly connected on the upper table of monitoring vessel main body 1 Face, solar energy photovoltaic panel 3 are hinged with screw rod 5 far from the lower surface of 4 position of support rod, and the upper surface of monitoring vessel main body 1 corresponds to silk The screw shell 6 to match with screw rod 5 is rotatably connected at the position of bar 5 by first bearing, screw rod 5 is far from photovoltaic One end of plate 3 is plugged in screw shell 6, and screw rod 5 is threadedly coupled with screw shell 6, outside of the screw shell 6 close to bottom Fixing sleeve is equipped with driven gear 7 on wall, and the upper surface of monitoring vessel main body 1 is fixedly connected with servo drive motor 8, servo-drive electricity The output end of machine 8 is connected with the driving gear 9 being meshed with driven gear 7 by shaft coupling, and the upper surface of monitoring vessel main body 1 is solid Surely it is connected with control cabinet 10 and support column 11, photovoltaic DC-to-AC converter and battery are installed, support column 11 is far from prison in control cabinet 10 The one end for surveying vessel main body 1 is fixedly connected with illumination camera shooting integrated machine 12, and solar energy photovoltaic panel 3 receives sunlight, passes through photovoltaic inversion Device converts the solar into power storage in battery, and the servo drive motor 8 that starting is connected with driving gear 9 turns clockwise It is dynamic, drive the screw shell 6 for being connected with driven gear 7 to rotate, so that the screw rod 5 hinged with solar energy photovoltaic panel 3 rises, thus Change the tilt angle with the hinged solar energy photovoltaic panel 3 of support rod 4, change current direction, servo drive motor 8 turns counterclockwise Dynamic, screw rod 5 declines, so that the angle of solar energy photovoltaic panel 3 can be adjusted according to lighting angle, guarantees solar energy Volt plate 3 receives solar irradiation to the greatest extent.

Bindiny mechanism includes fixed block 13, and fixed block 13 is fixedly connected on the bottom of monitoring vessel main body 1, and fixed block 13 is separate The side of monitoring vessel main body 1 offers mounting groove, be inserted in mounting groove with the matched connecting column 14 of mounting groove, connecting column 14 is remote One end from mounting groove slot bottom is fixedly connected with hydrologic monitoring device 2, symmetrically offers sliding in the two sides opposing sidewalls of mounting groove Slot 15, the lateral wall of connecting column 14 correspond to and offer card slot 16 at the position of sliding groove 15, and the slot bottom of card slot 16 is fixedly connected with Spring 17, the other end of spring 17 be fixedly connected with the matched fixture block 18 of card slot 16, and fixture block 18 is slidably connected with card slot 16, Fixture block 18 passes through the notch of card slot 16 far from one end of spring 17 and extends in corresponding sliding groove 15, and fixture block 18 and sliding Slot 15 is slidably connected, slidably connected in sliding groove 15 with the matched pushing block 19 of sliding groove 15, pushing block 19 far from fixture block 18 one Side is rotatably connected to threaded rod 20, and the other end of threaded rod 20 runs through the slot bottom of sliding groove 15 and extends to its outside, and screw thread Bar 20 is threadedly coupled with the slot bottom of sliding groove 15, rotates threaded rod 20, makes the pushing block 19 of the rotation connection of threaded rod 20 towards sliding The notch direction of slot 15 is slided, and the fixture block 18 of spring 17 is press-connected, and slides fixture block 18 towards the slot bottom direction of card slot 16, When fixture block 18 and sliding groove 15 are detached from, the connecting column 14 of hydrologic monitoring device 2 can will be connected with from the mounting groove of fixed block 13 Inside disassemble, it is convenient that hydrologic monitoring device 2 is safeguarded, the fixture block 18 for being connected with spring 17 is pressed, hydrology prison will be connected with The connecting column 14 for surveying device 2 is plugged in the mounting groove of fixed block 13, and fixture block 18 is sprung into corresponding sliding groove 15 by spring 17 Interior completion clamping, can be rapidly completed the installation of hydrologic monitoring device 2, so that the dismounting of hydrologic monitoring device 2 is more convenient, it is convenient to water Literary monitor 2 is safeguarded.

Symmetrical first sliding groove 21 there are two opening up on the inner wall of screw shell 6, screw rod 5 is far from solar energy photovoltaic panel 3 One end be fixedly connected with convex block 22, the lateral wall of convex block 22 is arranged with second bearing, and convex block 22 and second bearing rotation connect Connect, be fixedly connected on the lateral wall of second bearing there are two with matched first sliding block 23 of first sliding groove 21, and the first sliding block 23 It is slidably connected with corresponding first sliding groove 21, screw rod 5 is prevented to be detached from when rising with screw shell 6.

Servo drive motor 8 is externally provided with shield, protects to servo drive motor 8.

It is symmetrically opened up on the inner wall of sliding groove 15 there are two second sliding slot 24, is fixedly connected with two on the lateral wall of pushing block 19 A and matched second sliding block 25 of second sliding slot 24, and the second sliding block 25 is slidably connected with corresponding second sliding slot 24, anti-thrust Block 19 and sliding groove 15 are detached from.

Threaded rod 20 is fixedly connected with handle 26 far from one end of pushing block 19, facilitates the rotation of control threaded rod 20.

Data collection module 27, data feedback module 28, control module 29 and wireless transmission mould are installed in control cabinet 10 Block 30, data collection module 27 connect hydrologic monitoring device 2, illumination camera shooting integrated machine 12 and data feedback module by conducting wire respectively 28, data feedback module 28 connects servo-drive electricity by conducting wire respectively by conducting wire link control module 29, control module 29 Machine 8 and wireless transport module 30, wireless transport module 30 have personal terminal 31 by wireless network connection, and hydrologic monitoring device 2 shines Bright camera shooting integrated machine 12, data collection module 27, data feedback module 28, control module 29 and wireless transport module 30 pass through Battery is powered, the image data that the real time data and illumination camera shooting integrated machine 12 that hydrologic monitoring device 2 detects acquire Centralized collection is carried out by data collection module 27, the data of collection are then passed into control by data feedback module 28 Module 29, control module 29 pass to wireless transport module 30 after being focused on the data of feedback, finally by wirelessly passing Defeated module 30 passes to personal terminal 31 by wireless network, and staff is enabled to grasp the specific shape of hydrological environment in real time Condition, convenient timely to be coped with to the environmental problem of generation, control module 29 controls servo drive motor 8, to adjust automatically Node solar photovoltaic panel 3 receives sunlight to the greatest extent, improves the efficiency of light energy utilization to proper angle.

In the present invention, solar energy photovoltaic panel 3 receives sunlight, by photovoltaic DC-to-AC converter convert the solar into power storage in Battery, the servo drive motor 8 that starting is connected with driving gear 9 rotate clockwise, and drive the screw thread for being connected with driven gear 7 Sleeve 6 rotates, so that the screw rod 5 hinged with solar energy photovoltaic panel 3 rises, to change and the hinged solar energy of support rod 4 The tilt angle of plate 3 is lied prostrate, current direction is changed, servo drive motor 8 rotates counterclockwise, and screw rod 5 declines, so that solar energy The angle of photovoltaic panel 3 can be adjusted according to lighting angle, guarantee that solar energy photovoltaic panel 3 receives sunlight to the greatest extent According to rotation threaded rod 20, the pushing block 19 for being rotatablely connected threaded rod 20 is slided towards the notch direction of sliding groove 15, is press-connected There is the fixture block 18 of spring 17, slide fixture block 18 towards the slot bottom direction of card slot 16, when fixture block 18 and the disengaging of sliding groove 15, i.e., The connecting column 14 for being connected with hydrologic monitoring device 2 can be disassembled out of fixed block 13 mounting groove, it is convenient to hydrologic monitoring device 2 It is safeguarded, presses the fixture block 18 for being connected with spring 17, the connecting column 14 for being connected with hydrologic monitoring device 2 is plugged in fixed block 13 Mounting groove in, by spring 17 by fixture block 18 spring into corresponding sliding groove 15 complete be clamped, can be rapidly completed the hydrology prison The installation of device 2 is surveyed, so that the dismounting of hydrologic monitoring device 2 is more convenient, convenient that hydrologic monitoring device 2 is safeguarded, hydrologic monitoring device 2 The image data that the real time data and illumination camera shooting integrated machine 12 detected acquires passes through data collection module 27 and is collected Then the data of collection are passed to control module 29 by data feedback module 28 by middle collection, control module 29 is by feedback Data pass to wireless transport module 30 after being focused on, finally passed to by wireless transport module 30 by wireless network Personal terminal 31 enables staff to grasp the specific situation of hydrological environment in real time, the convenient environmental problem to generation into Row is timely coped with, and control module 29 controls servo drive motor 8, thus automatically adjust solar energy photovoltaic panel 3 to proper angle, Receive sunlight to the greatest extent, improves the efficiency of light energy utilization.

The foregoing is only a preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto, Anyone skilled in the art in the technical scope disclosed by the present invention, according to the technique and scheme of the present invention and its Inventive concept is subject to equivalent substitution or change, should be covered by the protection scope of the present invention.

Claims (7)

1. a kind of hydrological environment monitor control system, including monitoring vessel main body (1), which is characterized in that the monitoring vessel main body (1) Bottom be connected with hydrologic monitoring device (2) by bindiny mechanism, it is described monitoring vessel main body (1) top be equipped with solar energy photovoltaic panel (3), the center position of solar energy photovoltaic panel (3) lower surface is hinged with support rod (4), the support rod (4) it is another End is fixedly connected on the upper surface of monitoring vessel main body (1), following table of the solar energy photovoltaic panel (3) far from support rod (4) position Face is hinged with screw rod (5), and the upper surface of monitoring vessel main body (1) corresponds to and rotated at the position of screw rod (5) by first bearing It is connected with the screw shell (6) to match with screw rod (5), the screw rod (5) is plugged in far from the one end of solar energy photovoltaic panel (3) In screw shell (6), and screw rod (5) is threadedly coupled with screw shell (6), lateral wall of the screw shell (6) close to bottom Upper fixing sleeve is equipped with driven gear (7), and the upper surface of monitoring vessel main body (1) is fixedly connected with servo drive motor (8), institute The output end for stating servo drive motor (8) is connected with the driving gear (9) being meshed with driven gear (7), institute by shaft coupling The upper surface for stating monitoring vessel main body (1) is fixedly connected with control cabinet (10) and support column (11), installation in the control cabinet (10) There are photovoltaic DC-to-AC converter and battery, the support column (11) is fixedly connected with illumination camera shooting far from one end of monitoring vessel main body (1) All-in-one machine (12).

2. a kind of hydrological environment monitor control system according to claim 1, which is characterized in that the bindiny mechanism includes Fixed block (13), the fixed block (13) are fixedly connected on the bottom of monitoring vessel main body (1), and the fixed block (13) is far from monitoring The side of vessel main body (1) offers mounting groove, is inserted in the mounting groove and the matched connecting column of mounting groove (14), the company It connects column (14) to be fixedly connected far from one end of mounting groove slot bottom with hydrologic monitoring device (2), the two sides opposing sidewalls of the mounting groove On symmetrically offer sliding groove (15), the lateral wall of the connecting column (14) corresponds to and offers card slot at the positions of sliding groove (15) (16), the slot bottom of the card slot (16) is fixedly connected with spring (17), and the other end of the spring (17) is fixedly connected with and blocks Slot (16) matched fixture block (18), and fixture block (18) is slidably connected with card slot (16), the fixture block (18) is far from spring (17) One end passes through the notch of card slot (16) and extends in corresponding sliding groove (15), and fixture block (18) and sliding groove (15) sliding connect It connects, is slidably connected in the sliding groove (15) and sliding groove (15) matched pushing block (19), the separate fixture block of the pushing block (19) (18) side is rotatably connected to threaded rod (20), and the other end of the threaded rod (20) runs through the slot bottom of sliding groove (15) and prolongs Its outside is extended to, and threaded rod (20) is threadedly coupled with the slot bottom of sliding groove (15).

3. a kind of hydrological environment monitor control system according to claim 1, which is characterized in that the screw shell (6) Inner wall on open up there are two symmetrical first sliding groove (21), the one end of the screw rod (5) far from solar energy photovoltaic panel (3) is solid Surely it is connected with convex block (22), the lateral wall of the convex block (22) is arranged with second bearing, and convex block (22) and second bearing rotate Connection, be fixedly connected on the lateral wall of the second bearing there are two with matched first sliding block (23) of first sliding groove (21), and First sliding block (23) is slidably connected with corresponding first sliding groove (21).

4. a kind of hydrological environment monitor control system according to claim 1, which is characterized in that the servo drive motor (8) it is externally provided with shield.

5. a kind of hydrological environment monitor control system according to claim 2, which is characterized in that the sliding groove (15) Symmetrically opened up on inner wall there are two second sliding slot (24), be fixedly connected on the lateral wall of the pushing block (19) there are two with it is second sliding Matched second sliding block (25) of slot (24), and the second sliding block (25) is slidably connected with corresponding second sliding slot (24).

6. a kind of hydrological environment monitor control system according to claim 2, which is characterized in that the threaded rod (20) is remote One end from pushing block (19) is fixedly connected with handle (26).

7. a kind of hydrological environment monitor control system according to claim 1, which is characterized in that in the control cabinet (10) Data collection module (27), data feedback module (28), control module (29) and wireless transport module (30), the number are installed Pass through conducting wire connection hydrologic monitoring device (2), illumination camera shooting integrated machine (12) and data feedback module respectively according to collection module (27) (28), the data feedback module (28) is by conducting wire link control module (29), and the control module (29) is respectively by leading Line connection servo drive motor (8) and wireless transport module (30), the wireless transport module (30) pass through wireless network connection Have personal terminal (31), the hydrologic monitoring device (2), illumination camera shooting integrated machine (12), data collection module (27), data feedback Module (28), control module (29) and wireless transport module (30) are powered by battery.